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/*
 * @LANG: d
 * A mini C-like language scanner.
 */

module clang;

import std.c.stdio;
import std.stdio;

char[] string(char c)
{
    char[] result = new char[2];
    result[0] = c;
    result[1] = 0;
    return result[0 .. 1];
}
	
class CLang 
{
	/* Parsing data. */
	char[] identBuf;
	int curLine;
	
	this()
	{
	}

	/* State machine operation data. */
	int cs;

	%%{ 	
		machine clang;

		# Function to buffer a character.
		action bufChar {
			identBuf ~= fc;
		}

		# Function to clear the buffer.
		action clearBuf {
			
			identBuf = null;
		}

		# Functions to dump tokens as they are matched.
		action ident {
			writef( "ident(%d): %s\n", curLine, identBuf ); 
		}
		action literal {
			writef( "literal(%d): %s\n", curLine, identBuf );
		}
		action float {
			writef( "float(%d): %s\n", curLine, identBuf );
		}
		action int {
			writef( "int(%d): %s\n", curLine, identBuf );
		}
		action hex {
			writef( "hex(%d): 0x%s\n", curLine, identBuf );
		}
		action symbol {
			writef( "symbol(%d): %s\n", curLine, identBuf );
		}

		# Alpha numberic characters or underscore.
		alnumu = alnum | '_';

		# Alpha charactres or underscore.
		alphau = alpha | '_';

		# Symbols. Upon entering clear the buffer. On all transitions
		# buffer a character. Upon leaving dump the symbol.
		symbol = ( punct - [_'"] ) >clearBuf $bufChar %symbol;

		# Identifier. Upon entering clear the buffer. On all transitions
		# buffer a character. Upon leaving, dump the identifier.
		ident = (alphau . alnumu*) >clearBuf $bufChar %ident;

		# Match single characters inside literal strings. Or match 
		# an escape sequence. Buffers the charater matched.
		sliteralChar =
				( extend - ['\\] ) @bufChar |
				( '\\' . extend @bufChar );
		dliteralChar =
				( extend - ["\\] ) @bufChar |
				( '\\' . extend @bufChar );

		# Single quote and double quota literals. At the start clear
		# the buffer. Upon leaving dump the literal.
		sliteral = ('\'' @clearBuf . sliteralChar* . '\'' ) %literal;
		dliteral = ('"' @clearBuf . dliteralChar* . '"' ) %literal;
		literal = sliteral | dliteral;

		# Whitespace is standard ws, newlines and control codes.
		whitespace = any - 0x21..0x7e;

		# Describe both c style comments and c++ style comments. The
		# priority bump on tne terminator of the comments brings us
		# out of the extend* which matches everything.
		ccComment = '//' . extend* $0 . '\n' @1;
		cComment = '/*' . extend* $0 . '*/' @1;

		# Match an integer. We don't bother clearing the buf or filling it.
		# The float machine overlaps with int and it will do it.
		int = digit+ %int;

		# Match a float. Upon entering the machine clear the buf, buffer
		# characters on every trans and dump the float upon leaving.
		float =  ( digit+ . '.' . digit+ ) >clearBuf $bufChar %float;

		# Match a hex. Upon entering the hex part, clear the buf, buffer characters
		# on every trans and dump the hex on leaving transitions.
		hex = '0x' . xdigit+ >clearBuf $bufChar %hex;

		# Or together all the lanuage elements.
		fin = ( ccComment |
			cComment |
			symbol |
			ident |
			literal |
			whitespace |
			int |
			float |
			hex );

		# Star the language elements. It is critical in this type of application
		# that we decrease the priority of out transitions before doing so. This
		# is so that when we see 'aa' we stay in the fin machine to match an ident
		# of length two and not wrap around to the front to match two idents of 
		# length one.
		clang_main = ( fin $1 %0 )*;

		# This machine matches everything, taking note of newlines.
		newline = ( any | '\n' @{ curLine++; } )*;

		# The final fsm is the lexer intersected with the newline machine which
		# will count lines for us. Since the newline machine accepts everything,
		# the strings accepted is goverened by the clang_main machine, onto which
		# the newline machine overlays line counting.
		main := clang_main & newline;
	}%%

	%% write data noprefix;

	// Initialize the machine. Invokes any init statement blocks. Returns 0
	// if the machine begins in a non-accepting state and 1 if the machine
	// begins in an accepting state.
	void init( )
	{
		curLine = 1;
		%% write init;
	}

	// Execute the machine on a block of data. Returns -1 if after processing
	// the data, the machine is in the error state and can never accept, 0 if
	// the machine is in a non-accepting state and 1 if the machine is in an
	// accepting state.
	void execute( const(char)* _data, ulong _len )
	{
		const(char)* p = _data;
		const(char)* pe = _data + _len;
		const(char)* eof = pe;
		%% write exec;
	}

	// Indicate that there is no more data. Returns -1 if the machine finishes
	// in the error state and does not accept, 0 if the machine finishes
	// in any other non-accepting state and 1 if the machine finishes in an
	// accepting state.
	int finish( )
	{
		if ( cs == error )
			return -1;
		if ( cs >= first_final )
			return 1;
		return 0;
	}
}

static const int BUFSIZE = 1024;

void test( const char[] buf )
{
	CLang scanner = new CLang();
	scanner.init();
	scanner.execute( buf.ptr, buf.length );
	if ( scanner.finish() > 0 )
		printf("ACCEPT\n");
	else
		printf("FAIL\n");
}

int main()
{
	test( 
		"999 0xaAFF99 99.99 /*\n"
		"*/ 'lksdj' //\n"
		"\"\n"
		"\n"
		"literal\n"
		"\n"
		"\n"
		"\"0x00aba foobardd.ddsf 0x0.9\n" );

	test( 
		"wordwithnum00asdf\n"
		"000wordfollowsnum,makes new symbol\n"
		"\n"
		"finishing early /* unfinished ...\n" );

	test( 
		"/*\n"
		" *  Copyright\n"
		" */\n"
		"\n"
		"/*  Aapl.\n"
		" */\n"
		"\n"
		"#define _AAPL_RESIZE_H\n"
		"\n"
		"#include <assert.h>\n"
		"\n"
		"#ifdef AAPL_NAMESPACE\n"
		"namespace Aapl {\n"
		"#endif\n"
		"#define LIN_DEFAULT_STEP 256\n"
		"#define EXPN_UP( existing, needed ) \\\n"
		"		need > eng ? (ned<<1) : eing\n"
		"	\n"
		"\n"
		"/*@}*/\n"
		"#undef EXPN_UP\n"
		"#ifdef AAPL_NAMESPACE\n"
		"#endif /* _AAPL_RESIZE_H */\n" );
	return 0;
}

##### OUTPUT #####
int(1): 999
hex(1): 0xaAFF99
float(1): 99.99
literal(2): lksdj
literal(8): 

literal



hex(8): 0x00aba
ident(8): foobardd
symbol(8): .
ident(8): ddsf
hex(8): 0x0
symbol(8): .
int(8): 9
ACCEPT
ident(1): wordwithnum00asdf
int(2): 000
ident(2): wordfollowsnum
symbol(2): ,
ident(2): makes
ident(2): new
ident(2): symbol
ident(4): finishing
ident(4): early
FAIL
symbol(8): #
ident(8): define
ident(8): _AAPL_RESIZE_H
symbol(10): #
ident(10): include
symbol(10): <
ident(10): assert
symbol(10): .
ident(10): h
symbol(10): >
symbol(12): #
ident(12): ifdef
ident(12): AAPL_NAMESPACE
ident(13): namespace
ident(13): Aapl
symbol(13): {
symbol(14): #
ident(14): endif
symbol(15): #
ident(15): define
ident(15): LIN_DEFAULT_STEP
int(15): 256
symbol(16): #
ident(16): define
ident(16): EXPN_UP
symbol(16): (
ident(16): existing
symbol(16): ,
ident(16): needed
symbol(16): )
symbol(16): \
ident(17): need
symbol(17): >
ident(17): eng
symbol(17): ?
symbol(17): (
ident(17): ned
symbol(17): <
symbol(17): <
int(17): 1
symbol(17): )
symbol(17): :
ident(17): eing
symbol(21): #
ident(21): undef
ident(21): EXPN_UP
symbol(22): #
ident(22): ifdef
ident(22): AAPL_NAMESPACE
symbol(23): #
ident(23): endif
ACCEPT